Evolutionary Touch-Based Graphical User Interface for Electronic Devices

ABSTRACT

An electronic device having a customizable interface includes a processor configured to execute instructions and a display device configured to generate an interface based in part in response to the processor. The electronic device further includes a touch screen associated with the display device and configured to sense a user input with respect to a plurality of objects, wherein the input is provided to the processor. The processor further configured to determine at least one of a physical aspect of the user input and a frequency of an interaction with each of the plurality objects displayed on the touch screen. The processor further configured to modify a manner in which the plurality objects are displayed on the display device based on the determination of at least one of the physical aspects of the user input and the frequency of interaction with the plurality of objects.

CROSS REFERENCE TO PRIOR APPLICATIONS

This application is a continuation of the U.S. patent application Ser.No. 16/000,111, filed Jun. 5, 2018 now U.S. Pat. No. 10,282,002 issuedMay 7, 2019, which is incorporated herein by reference in its entirety;which is a continuation of the U.S. patent application Ser. No.15/664,478, filed Jul. 31, 2017 now U.S. Pat. No. 9,990,067 issued Jun.5, 2018, which is incorporated herein by reference in its entirety;which is a continuation of the U.S. patent application Ser. No.13/567,627, filed Aug. 6, 2012 now U.S. Pat. No. 9,720,527 issued Aug.1, 2017, which is incorporated herein by reference in its entirety.

BACKGROUND OF THE DISCLOSURE 1. Field of the Disclosure

This disclosure relates generally to a device and a process to provide atouch-based input graphical user interface with evolutionarycustomizable characteristics. More particularly, the disclosure relatesgenerally to a device and a process to provide a touch-based inputgraphical user interface that evolves various characteristics of thegraphical user interface based on use by the user.

2. Related Art

Many electronic devices have touch-based graphical user interfaces.These electronic devices can include wireless devices, mobile phones,tablet computers, gaming devices, MP3 players, and the like. Touch-basedgraphical user interfaces are a substantial improvement over priorapproaches to providing input to electronic devices. For example, theyhave the ability to provide input capability based on images andgraphics that may be varied. The touch-based graphical user interfacegreatly benefits from being customizable by the user. The customizationmay include location of icons and the like. However, the customizationprocess often requires the user to execute a setting process wherein theuser has to provide certain input to modify and customize the variousaspects of the touch-based graphical user interface. For example, theuser may have to go through a multiscreen question and answer processand/or may include the selection of various parameters in order tocomplete the customization process. In other cases, the user has to gointo a settings aspect or control panel aspect of the electronic devicein order to adjust, modify, and customize the various aspects of thetouch-based graphical user interface. This usually requires the user tonavigate multiple tabs, operate pulldown boxes, make a plurality ofselections, and/or the like.

As users often are not sure what settings they would like to adjust,modify, and customize, the resulting so-called customized graphical userinterface obtained through the process described above or the like isless than optimal as the users do not know what to modify and/or how tomodify the graphical user interface such that the resulting graphicaluser interface is optimal. Moreover, users are often busy and do nothave time to go through the tedious process of going into a settingsprocess, control panel, modification process or deal with a program thatwill query the user on what modifications can be made and/or are to bemade. Furthermore, such processes to customize the electronic device canbe a frustrating and bothersome for the user. The result is that theuser is often not customizing or using the electronic device in a mannerthat would provide the most efficient, beneficial, and/or enjoyableexperience with the electronic device.

Accordingly, there is a need for a system and process to customizeaspects of a touch-based graphical user interface for electronic devicesthat provides and/or customizes automatically based on use of theelectronic device by a user.

SUMMARY OF THE INVENTION

The foregoing needs are met, to a great extent, by the invention, with aprocess and device for implementing a touch-based graphical userinterface for electronic devices having the ability to be modifiedand/or customized in an evolutionary manner.

In one or more aspects, an electronic device having a customizableinterface includes a processor configured to execute instructions, adisplay device configured to generate an interface based in part inresponse to the processor, wherein the display device is furtherconfigured to generate the interface to display a plurality objects, atouch screen associated with the display device and configured to sensea user input with respect to the plurality of objects, wherein the inputis provided to the processor, a memory configured to store theinstructions to operate the electronic device, the processor furtherconfigured to determine at least one of a physical aspect of the userinput and a frequency of an interaction with each of the pluralityobjects displayed on the touch screen, and the processor furtherconfigured to modify a manner in which the plurality objects aredisplayed on the display device based on the determination of at leastone of the physical aspects of the user input and the frequency ofinteraction with the plurality of objects.

The physical aspect of the user input determined by the processor mayinclude at least one of the physical contact area of the user withrespect to the touchscreen, a physical contact area of a device operatedby the user with respect to the touchscreen, and the manner in which theuser contacts the touchscreen. The frequency of interaction with theplurality of objects determined by the processor may include determininga frequency of use of each object of the plurality of objects. Theplurality of objects may include at least one of icons and applications.The electronic may be configured to display multiple screens, with onlyone screen visible at a given time, the display further configured todisplay a portion of the plurality of objects on each of the multiplescreens. The electronic device may include at least one of a wirelessphone, mobile phone, user equipment, MP3 player, gaming device, tabletcomputer, smartphone, and personal digital assistant. The modificationof the manner in which the plurality of objects maybe displayed includesmodifying at least one of a size of the object, a shape of the object, acolor of the object, a position of the object, a font of the object, anda visual aspect of the object. The processor may be configured to notchange the manner in which the plurality of objects are displayed basedon a determination that a modification is not needed. The electronicdevice further may include at least one of an audio input device, audiooutput device, power supply, touchscreen controller, and a transceiver.

In a further aspect the invention a process of customizing an interfaceof an electronic device includes generating an interface on a displaydevice and further generating on the interface display a pluralityobjects, sensing a user input on a touch screen associated with thedisplay device with respect to the plurality of objects, storinginstructions to operate the electronic device in a memory, determiningat least one of a physical aspect of the user input and a frequency ofan interaction with each of the plurality objects displayed on the touchscreen, and modifying a manner in which the plurality objects aredisplayed on the display device based on the determination of at leastone of the physical aspects of the user input and the frequency ofinteraction with the plurality of objects.

The physical aspect of the user input may include at least one of thephysical contact area of the user with respect to the touchscreen, aphysical contact area of a device operated by the user with respect tothe touchscreen, and the manner in which the user contacts thetouchscreen. The frequency of interaction with the plurality of objectsmay include determining a frequency of use of each object of theplurality of objects. The plurality of objects may include at least oneof icons and applications. The process may include displaying multiplescreens, with only one screen visible at a given time, wherein thedisplaying displays a portion of the plurality of objects on each of themultiple screens. The modifying may include at least one of modifying asize of the object, a shape of the object, a color of the object, aposition of the object, a font of the object, and a visual aspect of theobject.

In yet another aspect of the invention an electronic device having acustomizable interface includes means for generating an interface on adisplay device and for further generating on the interface display aplurality objects, means for sensing a user input on a touch screenassociated with the display device with respect to the plurality ofobjects, means for storing instructions to operate the electronic devicein a memory, means for determining at least one of a physical aspect ofthe user input and a frequency of an interaction with each of theplurality objects displayed on the touch screen, and means for modifyinga manner in which the plurality objects are displayed on the displaydevice based on the determination of at least one of the physicalaspects of the user input and the frequency of interaction with theplurality of objects.

The physical aspect of the user input determined by the means fordetermining may include at least one of the physical contact area of theuser with respect to the touchscreen, a physical contact area of adevice operated by the user with respect to the touchscreen, and themanner in which the user contacts the touchscreen. The frequency ofinteraction with the plurality of objects determined by the means fordetermining may include a frequency of use of each object of theplurality of objects. The plurality of objects may include at least oneof icons and applications. The display device may be further configuredto display multiple screens, with only one screen visible at a giventime, the display further configured to display a portion of theplurality of objects on each of the multiple screens. The electronicdevice may include at least one of a wireless phone, mobile phone, userequipment, MP3 player, gaming device, tablet computer, smartphone, andpersonal digital assistant. The means for modifying may modify at leastone of a size of the object, a shape of the object, a color of theobject, a position of the object, a font of the object, and a visualaspect of the object.

There has thus been outlined, rather broadly, certain aspects of theinvention in order that the detailed description thereof herein may bebetter understood, and in order that the present contribution to the artmay be better appreciated. There are, of course, additional aspects ofthe invention that will be described below and which will form thesubject matter of the claims appended hereto.

In this respect, before explaining at least one aspect of the inventionin detail, it is to be understood that the invention is not limited inits application to the details of construction and to the arrangementsof the components set forth in the following description or illustratedin the drawings. The invention is capable of aspects in addition tothose described and of being practiced and carried out in various ways.Also, it is to be understood that the phraseology and terminologyemployed herein, as well as the abstract, are for the purpose ofdescription and should not be regarded as limiting.

As such, those skilled in the art will appreciate that the conceptionupon which this disclosure is based may readily be utilized as a basisfor the designing of other structures, methods, and systems for carryingout the several purposes of the invention. It is important, therefore,that the claims be regarded as including such equivalent constructionsinsofar as they do not depart from the spirit and scope of theinvention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows the details of an exemplary electronic device in accordancewith aspects of the invention.

FIG. 2 shows a user with a smaller hand using the electronic device inaccordance with aspects of the invention.

FIG. 3 shows a user with a larger hand using the electronic device inaccordance with aspects of the invention.

FIG. 4 shows an evolution-based process of customizing the graphicaluser interface in accordance with aspects of the invention.

FIG. 5 shows an example of the evolution-based process of customizingthe graphical user interface in accordance with aspects of theinvention.

FIG. 6 shows an example of the evolution-based process of customizingthe graphical user interface in accordance with aspects of theinvention.

DETAILED DESCRIPTION

Reference in this specification to an electronic device is intended toencompass devices such as wireless devices, mobile phones, tabletcomputers, gaming systems, MP3 players and the like. Reference to a“wireless device” is intended to encompass any compatible mobiletechnology computing device that connects to a wireless communicationnetwork, such as mobile phones, mobile equipment, mobile stations, userequipment, cellular phones, smartphones, handsets or the like (e.g.,Apple iPhone, iPad, Google Android based devices, BlackBerry baseddevices, other types of PDAs or smartphones), wireless dongles, or othermobile computing devices. The term “wireless device” may beinterchangeably used and referred to herein as “wireless handset,”“handset,” “mobile device,” “device,” “mobile phones,” “mobileequipment,” “mobile station,” “user equipment,” “cellular phone,”“smartphones,” or “phone.”

Wireless devices may connect to a “wireless network” or “network” andare intended to encompass any type of wireless network to obtain mobilephone services through the use of a wireless device, such as the GlobalSystem for Mobile Communication (GSM) network, Code-Division MultipleAccess (CDMA) network or the like, that may utilize the teachings of thepresent application to allow a wireless device to connect to a wirelessnetwork.

Reference in this specification to “one aspect,” “an aspect,” “otheraspects,” “one or more aspects” or the like means that a particularfeature, structure, or characteristic described in connection with theaspect is included in at least one aspect of the disclosure. Theappearances of, for example, the phrase “in one aspect” in variousplaces in the specification are not necessarily all referring to thesame aspect, nor are separate or alternative aspects mutually exclusiveof other aspects. Moreover, various features are described which may beexhibited by some aspects and not by others. Similarly, variousrequirements are described which may be requirements for some aspectsbut not other aspects.

FIG. 1 shows the details of an exemplary electronic device in accordancewith aspects of the invention. The electronic device 104 includes aprocessor 114, memory 116, display 118, user interface 122, and thelike. The processor 114 may be a central processing unit configured toexecute instructions including instructions related to softwareprograms. The display 118 may be a liquid crystal display having abacklight to illuminate the various color liquid crystals to provide acolorful display. The user interface 122 may be any type of physicalinput having buttons and further may be implemented as a touchscreen180.

The electronic device 104 may further include in the memory 116, anoperating system 148, a communication component 150, a contact/motioncomponent 152, a graphics component 154, and the like. The operatingsystem 148 together with the various components providing softwarefunctionality for each of the components of the electronic device 104.

The memory 116 may include a high-speed random-access memory. Also, thememory 116 may be a non-volatile memory, such as magnetic fixed diskstorage, flash memory or the like. These various components may beconnected through various communication lines including a data bus 170.

Additionally, the electronic device 104 may include an audioinput/output device 156. The audio input/output device 156 may includespeakers, speaker outputs, and in the like, providing sound output; andmay include microphones, microphone inputs, and the like, for receivingsound inputs. The audio input/output device 156 may include and analogto digital converter and a digital to audio converter for audio inputand output functions respectively.

When implemented as a wireless device, the electronic device 104 mayinclude a transceiver 120 and the like. The electronic device 104 mayprovide radio and signal processing as needed to access a network forservices. The processor 114 may be configured to process call functions,data transfer, and the like and provide other services to the user.

The touchscreen 180 of the invention may be implemented in the display118 and may detect a presence and location of a touch of a user withinthe display area. For example, touching the display 118 of theelectronic device 104 with a finger or hand. The Touchscreen 180 mayalso sense other passive objects, such as a stylus.

In operation, the display 118 may display various objects 190 associatedwith applications for execution by the processor 114. In this regard, auser may touch the display 118, and in particular the touchscreen 180,to interact with the objects 190. For example touching an object 190 mayexecute an application in the processor 114 associated with the object190 that is stored in memory 116. Additionally or alternatively,touching an object 190 may open a menu of options to be selected by theuser. The display 118 may include a plurality of the objects 190 for theuser to interact with. Moreover the display 118 may include a pluralityof screens. The display 118 showing one screen at a time. The user mayinteract with the display 118 to move a screen into view on the display118. Various objects 190 may be located in the each of the screens.

The touchscreen 180 may be implemented as a resistive touchscreen, asurface acoustic wave touch screen, a capacitive touch screen, a surfacecapacitance touchscreen, projected capacitive touch screen,self-capacitance sensors, infrared sensors, dispersive signaltechnology, acoustic pulse recognition, or the like.

When the touchscreen 180 is implemented as a resistive touchscreen panelit may include several layers. It may include two thin, transparentelectrically-resistive layers separated by a thin space. These layersmay face each other, with a thin gap between. A top screen or the screenwhich experiences the users touch may have a coating on the undersidesurface of the touchscreen 180. Beneath this layer may be a similarresistive layer on top of its substrate. One layer may have conductiveconnections along its sides, the other along top and bottom. A voltagemay be passed through one layer, and sensed at the other. When anobject, such as a fingertip or stylus tip, presses down on the outersurface, the two layers touch to become connected at that point.Accordingly, the touchscreen 180 may then behave as a pair of voltagedividers, one axis at a time. By rapidly switching between each layer,the position of a pressure on the screen can be read.

The touchscreen 180 may be implemented with surface acoustic wave (SAW)technology. SAW technology may use ultrasonic waves that pass over thetouchscreen 180. When the touchscreen 180 is touched, a portion of thewave may be absorbed. This change in the ultrasonic waves registers theposition of the touch event and sends this information to the controllerfor processing.

The touchscreen 180 may be implemented with capacitive touchscreenpanel. A capacitive touchscreen panel may include an insulator such asglass, coated with a transparent conductor such as indium tin oxide. Asthe user's body is also an electrical conductor, touching the surface ofthe screen results in a distortion of the screen's electrostatic field,measurable as a change in capacitance. The location is then sent to theprocessor 114 for processing. Only one side of the insulator may becoated with a conductive layer. A small voltage may be applied to thelayer, resulting in a uniform electrostatic field. When a conductor,such as a human finger, touches the uncoated surface, a capacitor isdynamically formed. The processor 114 can determine the location of thetouch indirectly from the change in the capacitance as measured from thefour corners of the panel.

The touchscreen 180 may be implemented as a projected capacitive touch(PCT) device. The PCT touch screen may be made up of a matrix of rowsand columns of conductive material, layered on sheets of glass. This canbe manufactured either by etching a single conductive layer to form agrid pattern of electrodes, or by etching two separate, perpendicularlayers of conductive material with parallel lines or tracks to form agrid. Current applied to this grid creates a uniform electrostaticfield, which can be measured. When a conductive object, such as afinger, comes into contact with a PCT touchscreen, it distorts the localelectrostatic field at that point. This is measurable as a change incapacitance. If a finger bridges the gap between two of the tracks, thecharge field is further interrupted and detected by the processor 114.The capacitance can be changed and measured at every individual point onthe grid.

The touchscreen 180 may be implemented with self-capacitance sensors.Self-capacitance sensors may have an X-Y grid with columns and rows thatoperate independently. With self-capacitance, the capacitive load of afinger is measured on each column or row electrode by a current meter.

The touchscreen 180 may be implemented with infrared sensors. Infraredsensors may be mounted around the display to sense for a user'stouchscreen input. An infrared touchscreen may use an array of X-Yinfrared LED and photodetector pairs around the edges of the screen todetect a disruption in the pattern of LED beams. These LED beams crosseach other in vertical and horizontal patterns. Two or more imagesensors are placed around the edges of the screen. Infrared back lightsmay be placed in a camera's field of view on the other side of thescreen. A touch shows up as a shadow and each pair of cameras can thenbe pinpointed to locate the touch or even measure the size of thetouching object.

The touchscreen 180 may be implemented with dispersive signaltechnology. Dispersive signal technology may use sensors to detect thepiezoelectricity in the glass that occurs due to a touch. Algorithmsexecuted by the processor 114 then interpret this information andprovide the actual location of the touch.

The touchscreen 180 may be implemented with acoustic pulse recognition.In this aspect, a touch at each position on the glass generates a uniquesound. Transducers attached to the edges of the touchscreen glass pickup the sound of the touch. The sound is then digitized by the processor114 and compared to a list of prerecorded sounds for every position onthe glass.

The electronic device 104 includes a system and process forcustomization of interface aspects of the display 118. In particular,the interface aspects may include the size, color, arrangement, fontattributes, shape, shape attributes, and the like, of the objects 190that are arranged on a screen of the display 118. Additionally oralternatively, the interface aspects may include the location of theobjects 190 on a particular screen of the plurality of screens.

The customization of the interface aspects may be based on the use ofthe electronic device 104 by the user. The use may include how the useruses the touchscreen 180, which objects 190 are used, how often theobjects 190 are used and how the user physically touches the touchscreen180.

The manner in which it is determined how the user physically touches thetouchscreen 180 may be based on the sensed touching of the touchscreen180. In this regard, the touchscreen 180 may be configured to sense thetouch of a user as noted above. This ability to sense the touch of theuser may include being able to determine the size of the surface theuser touches on the touchscreen 180. For example, a user with smallerfingers, a stylus user, or user that is uses a smaller portion of theirfinger will be sensed by the touchscreen 180 in conjunction with theprocessor 114 as having a smaller physical contact surface. On the otherhand, a user with larger fingers, a user that uses a larger surface of afinger, or the like, will be sensed by the touchscreen 180 inconjunction with the processor 114 as having a larger physical contactsurface. Moreover, the touchscreen 180 in conjunction with the processor114 may be configured to determine a more exact, an average, a median,or the like physical contact surface in order to determine how the userphysically touches the touchscreen 180. Similarly, a user who has atendency to bounce their finger on or across the surface of thetouchscreen 180, drag and/or slide their finger on the touchscreen 180may be sensed as having a larger physical contact area.

FIG. 2 shows a user with a smaller hand using the electronic device inaccordance with aspects of the invention; and FIG. 3 shows a user with alarger hand using the electronic device in accordance with aspects ofthe invention. In particular, FIG. 2 and FIG. 3 show aspects where theinvention may be beneficial for users with different size hands. FIG. 2shows a user hand 200 that is average sized or smaller than averagesized. The resulting physical contact surface 202 on the display 118,user interface 122, and touchscreen 180 is of a first size. On the otherhand, FIG. 3 shows a user hand 300 that is larger than average. Theresulting physical contact surface 302 on the display 118, userinterface 122, and touchscreen 180 is of a second larger size than thefirst size. The processor 114 is configured to capture the size of thephysical contact area using the touchscreen 180 in conjunction with thecontact/motion component 152. In this regard, the processor 114 maycollect data over numerous interactions with the user and thetouchscreen 180 and determine that the user has a particular physicalcontact area when interacting with the touchscreen 180. Again, thephysical contact area not being limited to the users hand size, butincluding the physical contact area which includes the portion of thefinger used by the user, bouncing of a finger, sliding a finger, use ofa stylus, or the like. This registered contact area may be used tosubsequently determine the various interface aspects of the electronicdevice 104 so as to be more beneficial for the user and provide the userwith a more enjoyable experience with electronic device 104.

In the initial configuration of the electronic device 104, the objects190 may be displayed on the user interface 122 based on a defaultsetting or manufacturers' setting. During the evolutionary process,objects 190 (icons, applications, context, and the like) may bereconfigured in an evolutionary schema either on different screens or onthe same screen. Furthermore, the evolutionary process may include achange of size, color, arrangement, font attributes, shape, shapeattributes, and the like of the objects 190 on the display 118 based onuser's behaviors and physical properties of a person.

The evolutionary process may operate without user interaction and befinished before user substantially operates the device. On the otherhand, the evolutionary process may operate continuously without userinteraction. Moreover, the evolutionary process may operate on apredefined schedule from time to time or in an ad hoc manner asdetermined by the processor 114. The operating parameters of theevolutionary process may be set by a user, set by the manufacturer, orthe like.

The evolutionary process dramatically eases the user interaction,reduces the operation time, and allows a user to have a more enjoyableexperience with the electronic device 104. The electronic device 104 mayexecute the evolutionary configuration process so that objects 190(icons, applications, context, and the like) can be reorganized inevolutionary schema either on different screens or on the same screen.The evolutionary process can also cover multiple pages. Additionally,the evolutionary process may be limited by the user of the electronicdevice 104 to not affect certain objects 190, affect certain aspects,change only certain aspects, and the like.

FIG. 4 shows an evolution-based process of customizing the graphicaluser interface in accordance with aspects of the invention. Inparticular, FIG. 4 shows a touch-based graphical user interfacecustomization process 400. This process 400 may include an initialdetermination 402 whether or not the evolutionary touch-basedcustomization process 400 is enabled. In this regard, the process 400may be set by the factory to be initially enabled so that a user neednot take any action in order to benefit from the process 400 operatingand improving the graphical user interface for the user. The electronicdevice 104 may include the ability to disable the process 400 if a userdetermines that they do not want to benefit from the customizationprocess 400. On the other hand, the electronic device 104 may be set bythe factory to be disabled. In that case, the user must take affirmativesteps with electronic device 104 in order to enable the customizationprocess 400. When the customization process 400 is enabled, the processwill move to process 404; and when the customization process is notenabled the process may advance to process 410.

In process 404, the electronic device 104 and the processor 114 maymonitor various aspects of the user with respect to touchscreen 180. Forexample, the electronic device 104 and processor 114 may monitor thesize of the touch of the user, as described above, and determine thetouch size for further implementation within process 400. In aparticular aspect, the size of the touch of the user may be measuredbased on an output of the touchscreen 180 and stored in the memory 116.After a predetermined number of measurements, the average size of theuser's touch may be calculated in the processor 114. Other aspects arecontemplated for monitoring as well such as those described below.

In process 406, the various aspects that were monitored in process 404may be compared to the currently selected aspects. If the monitoredaspects are not substantially equivalent to the currently selectedaspects, the process 406 may determine that modification is required andadvance to process 408. If on the other hand, the monitored aspects aresubstantially equivalent to the currently selected aspects, then theprocess 406 may advance to process 410. For example, if the monitoredaspects are the size of touch of a user and the previously selectedaspects of user touch size are substantially equivalent to the monitoredsize touch of a user, then the process will advance to process 410, andotherwise may advance to process 408. More specifically, the measuredaverage size touch of the user determined in process 404 may be comparedto a previously determined measured average size touch of the user. Thepreviously determined average size touch of the user having been storedin memory 116. A predetermined variance may be included in thecomparison process between the current determined average size touch andthe previous measured average size touch in order to preventoverburdening the processor 114.

In process 408, the processor 114 may modify the aspects of the display118, user interface 122, touchscreen 180 and/or objects 190 to beconsistent with the monitored aspects of the user as determined inprocess 406. For example, if the monitored aspects are the size of touchof a user, and the previously determined size touch of the user issmaller, then the objects 190 may be increased in size to be consistentwith the monitored aspects as determined in process 406. Likewise, ifthe monitored average size touch of the user has decreased with respectto the previously determined average size touch of the user, the objects190 may be decreased in size.

In process 410, if the evolutionary touch-based graphical user interfacecustomization process 400 was not enabled, set forth in process 402, orthe aspects of users touch did not require modification as set forth inprocess 406, then in process 410 the current aspects of the graphicaluser interface may be maintained and no change will be made. Forexample, if the process 400 is operated numerous times and the userbehavior has not changed, then the aspects of the graphicaluser-interface may also not be changed.

Object Size

Accordingly, the process 400 may allow the electronic device 104 toexecute the evolutionary process so as to change the user interfaceobjects 190 to different sizes. The different sizes may include the sizeof objects 190, size of the icons, the size of applications, and size ofany fonts. The upper and lower limitations on the size of objects 190may be preset in the electronic device 104. Additionally, the upper andlower limitations on the size of objects 190 may be set by the user inthe electronic device 104.

Object Location

Another aspect that may be modified using the process 400 may be thelocations of various objects 190. In this regard, the aspect monitoredin process 404 may be the frequency of use of various objects 190. Ifcertain objects 190 are used with greater frequency, the process step408 may modify the graphical user interface to position the objects 190used with higher frequency on a first screen of the touchscreen 180.Objects 190 that are used with less frequency may be placed onsubsequent screens of the touchscreen 180. Furthermore, if there aremore than two screens, each screen may have objects 190 of the similarfrequency. For example, high-frequency use objects 190 on a firstscreen, medium frequency use objects 190 on a second screen, and lowerfrequency use objects 190 on a third and subsequent screens.

Alternatively, the position of high frequency use objects 190 may bechanged on any given screen. For example, high-frequency use objects 190may be positioned at a more convenient location such as the top orcenter of the touchscreen 180 in process 400.

Similarly, high-frequency use objects 190 may be assigned a differentcolor in process 400. In this regard, the different color objects 190may assist the user in finding and using objects 190 quicker and easier.Similarly, the shape of the object 190 may also be modified usingprocess 400.

Furthermore, the various frequency of use aspects may be determinedbased on a time of day. For example, morning, noon, afternoon, orevening may be separately analyzed and processed in process 404 andprocess 406 and subsequently modified in process 408 based on the timeof day. In subsequent use of electronic device 104, each of these timesa day may have a different graphical user interface and presentation ofobjects 190.

Additional Sensor

The process 400 may further include a configuration having an additionalsensor to assist in object evolution. The additional sensor can enhancethe accuracy of the process 400. The additional sensor can be associatedwith the touchscreen 180.

Additional aspects contemplated to be modified by the invention includethe background color of a screen, the background color of a portion of ascreen, background color of the touchscreen 180, or the like. Forexample, the portion of a screen or a screen containing high-frequencyuse objects 190 may have a color with a greater contrast to focus theuser's attention on that particular portion. On the other hand, thebackground color can be pre-defined or randomly set by the electronicdevice 104. Additionally, the process 400 may modify the backgroundcolor located around a high-frequency use object 190 or an interface ofthe high-frequency use object 190. For example, the shape on theboundary of high-frequency use object 190 can be configurable todistinguish it from a lower frequency use objects 190. In a similarapproach, the shape of a high-frequency use object 190 may be modifiedsuch as to be a square or circular based on the implementation of theprocess 400.

FIG. 5 shows an example of the evolution-based process of customizingthe graphical user interface in accordance with aspects of theinvention. In particular, FIG. 5 shows an initial home screen 502together with an initial secondary screen 504. The initial home screen502 and the initial secondary screen 504 may have objects 550 having asize set by the manufacturer of the electronic device 104. After thetouch-based graphical user interface customization process 400 isimplemented one or more times, the process 400 may determine in thisparticular example that the users touch is larger. In response to thisdetermination of a larger touch, the process 400 may generate an evolvedhome screen 512 and evolved secondary screen 514. The evolved homescreen 512 and evolved secondary screen 514 may have objects 550 thatare larger in size. Note due to the larger size objects 550 that theprocess 400 may move the objects from the evolved home screen 512 to theevolved secondary screen 514 to accommodate the larger size.

FIG. 6 shows an example of the evolution-based process of customizingthe graphical user interface in accordance with aspects of theinvention. In particular, FIG. 6 shows an initial home screen 602together with an initial secondary screen 604. The initial home screen602 and the initial secondary screen 604 may have objects 650, 652, 654.The objects 650 may be objects that are used by the user a highpercentage of the time; objects 652 may be objects that are used by theuser a low percentage of the time; and objects 654 may be objects thatare used a medium percentage of the time. After the touch-basedgraphical user interface customization process 400 is implemented one ormore times, the process 400 may determine high usage objects 650, lowusage objects 652, and medium usage objects 654. In response to thisdetermination, the process 400 may generate an evolved home screen 612and evolved secondary screen 614. The evolved home screen 612 andevolved secondary screen 614 may have high usage objects 650 on theevolved home screen 612. Moreover the high usage objects 650 may bepositioned higher on the screen. The medium usage objects 654 may bepositioned on the evolved home screen 612 at a lower position. Finally,the low usage objects 652 may be positioned on the evolved secondaryscreen 614.

Additionally, once the touch-based graphical user interfacecustomization process 400 has resized the objects 190 (550), such asshown in FIG. 5, the user may still desire to modify the size of theobjects 190 (550). In this regard, the touchscreen 180 may allow a userto manipulate the objects 190 (550) to increase or decrease the size ofthe objects 190 (550) based on a further touch. For example, the usermay manipulate the touchscreen 182 to enter a resizing configuration.During this resizing configuration, the user then can manipulate aparticular object 190 (550) to increase or decrease its size.Alternatively, in a different resizing configuration the userinteraction can manipulate all of the objects 190 (550) at one time toincrease or decrease their sizes. Accordingly, this aspect allows a userto further customize the objects 190 (550) as desired.

Accordingly, the system and process described above customizes aspectsof a touch-based graphical user interface of an electronic devices basedon use of the electronic device by a user. The result is that theelectronic device is customized easily in a manner that provides themost efficient, beneficial, and/or enjoyable experience with theelectronic device.

For the purposes of this disclosure a computer readable medium storescomputer data, which data can include computer program code that isexecutable by a processor of the SIM or mobile device, in machinereadable form. By way of example, and not limitation, a computerreadable medium may include computer readable storage media, fortangible or fixed storage of data, or communication media for transientinterpretation of code-containing signals. Computer readable storagemedia, as used herein, refers to physical or tangible storage (asopposed to signals) and includes without limitation volatile andnon-volatile, removable and nonremovable storage media implemented inany method or technology for the tangible storage of information such ascomputer-readable instructions, data structures, program modules orother data. Computer readable storage media includes, but is not limitedto, RAM, ROM, EPROM, EEPROM, flash memory or other solid state memorytechnology, optical storage media, magnetic cassettes, magnetic tape,magnetic disk storage or other magnetic storage devices, or any otherphysical or material medium which can be used to tangibly store thedesired information or data or instructions and which can be accessed bya processor or computing device. In one or more aspects, the actionsand/or events of a method, algorithm or module may reside as one or anycombination or set of codes and/or instructions on a computer readablemedium or machine readable medium, which may be incorporated into acomputer program product.

The invention may include communication channels that may be any type ofwired or wireless electronic communications network, such as, e.g., awired/wireless local area network (LAN), a wired/wireless personal areanetwork (PAN), a wired/wireless home area network (HAN), awired/wireless wide area network (WAN), a campus network, a metropolitannetwork, an enterprise private network, a virtual private network (VPN),an internetwork, a backbone network (BBN), a global area network (GAN),the Internet, an intranet, an extranet, an overlay network, a cellulartelephone network, a Personal Communications Service (PCS), using knownprotocols such as the Global System for Mobile Communications (GSM),CDMA (Code-Division Multiple Access), W-CDMA (Wideband Code-DivisionMultiple Access), Wireless Fidelity (Wi-Fi), Bluetooth, and/or the like,and/or a combination of two or more thereof.

In an embodiment, the invention may be implemented in any type of mobilesmartphones that are operated by any type of advanced mobile dataprocessing and communication operating system, such as, e.g., an AppleiOS operating system, a Google Android operating system, a RIMBlackberry operating system, a Nokia Symbian operating system, aMicrosoft Windows Mobile operating system, a Microsoft Windows Phoneoperating system, a Linux operating system or the like.

Further in accordance with various aspects of the invention, the methodsdescribed herein are intended for operation with dedicated hardwareimplementations including, but not limited to, microprocessors, PCs,PDAs, SIM cards, semiconductors, application specific integratedcircuits (ASIC), programmable logic arrays, cloud computing devices, andother hardware devices constructed to implement the methods describedherein.

While the system and method have been described in terms of what arepresently considered to be specific aspects, the disclosure need not belimited to the disclosed aspects. It is intended to cover variousmodifications and similar arrangements included within the spirit andscope of the claims, the scope of which should be accorded the broadestinterpretation so as to encompass all such modifications and similarstructures. The present disclosure includes any and all aspects of thefollowing claims.

1. An electronic device having a customizable interface comprising: aprocessor configured to execute instructions; a display deviceconfigured to generate an interface based in part in response to theprocessor, wherein the display device is further configured to generatethe interface to display a plurality objects; a touch screen associatedwith the display device and configured to sense a user input withrespect to the plurality of objects and configured to measure a surfacesize of the user input, wherein the input is provided to the processor;a memory configured to store the instructions to operate the electronicdevice; the processor further configured to determine a frequency of aninteraction with each of the plurality objects displayed on the touchscreen; the processor further configured to modify a manner in which theplurality objects are displayed on the display device based on adetermination of the frequency of interaction with the plurality ofobjects and the surface size, wherein modifying a manner in which theplurality objects are displayed comprises modifying a size of theobject; wherein the plurality of objects are associated withapplications executed at least in part by the processor; wherein thedisplay device is further configured to display multiple screens, withonly one screen visible at a given time, the display further configuredto display a portion of the plurality of objects on each of the multiplescreens; wherein the modification of the manner in which the pluralityof objects are displayed further comprises modifying a position of theobject on one of the multiple screens based on the frequency ofinteraction with the plurality of objects based on the frequency ofinteraction with the plurality of objects; and wherein the processor isfurther configured to maintain a manner in which the plurality objectsare displayed on the display device based on the determination of thefrequency of interaction with the plurality of objects has not changedwith respect to a previous determination of the frequency of interactionwith the plurality of objects.
 2. The electronic device according toclaim 1 wherein the frequency of interaction with the plurality ofobjects determined by the processor comprises determining a frequency ofuse of each object of the plurality of objects.
 3. The electronic deviceaccording to claim 1 wherein the modification of the manner in which theplurality of objects are displayed further comprises modifying abackground color of one of the multiple screens based on the frequencyof interaction with the plurality of objects to be different from abackground color of another one of the multiple screens.
 4. Theelectronic device according to claim 1 wherein the modification of themanner in which the plurality of objects are displayed further comprisesmodifying at least a position of the object from one of the multiplescreens to another one of the multiple screens based on the frequency ofinteraction with the plurality of objects.
 5. The electronic deviceaccording to claim 1 wherein the modification of the manner in which theplurality of objects are displayed further comprises modifying abackground screen color of the object based on the frequency ofinteraction with the plurality of objects such that the backgroundscreen color of the plurality of objects has a greater contrast for theplurality of objects having a higher frequency of interaction withrespect to a contrast for the plurality of objects having a lowerfrequency of interaction.
 6. The electronic device according to claim 1wherein the processor is configured to not change the manner in whichthe plurality of objects are displayed based on a determination that auser has disabled customizable interface aspects of the processor; andwherein the processor is further configured to maintain a manner inwhich the plurality objects are displayed on the display device afterthe determination that the user has disabled customizable interfaceaspects of the processor.
 7. The electronic device according to claim 1wherein the electronic device further comprises at least one of an audioinput device, audio output device, power supply, touchscreen controller,and a transceiver.
 8. A process of customizing an interface of anelectronic device comprising: generating an interface on a displaydevice and further generating on the interface a plurality objects;sensing a user input on a touch screen associated with the displaydevice with respect to the plurality of objects; storing instructions tooperate the electronic device in a memory; determining a frequency of aninteraction with each of the plurality objects displayed on the touchscreen; measuring a surface size of the user input with the touchscreen; modifying a manner in which the plurality objects are displayedon the display device based on a determination of the frequency ofinteraction with the plurality of objects and the surface size, whereinthe modifying comprises modifying a size of the object; and displayingmultiple screens, with only one screen visible at a given time, whereinthe displaying displays a portion of the plurality of objects on each ofthe multiple screens; wherein the plurality of objects are associatedwith applications executed at least in part by a processor; wherein themodified manner in which the plurality of objects are displayed furthercomprises modifying a position of the object on one of the multiplescreens based on the frequency of interaction with the plurality ofobjects based on the determining the frequency of the interaction witheach of the plurality of objects displayed on the touch screen; andwherein the modifying comprises maintaining a manner in which theplurality objects are displayed on the display device based on thedetermination of the frequency of interaction with the plurality ofobjects has not changed with respect to a previous determination of thefrequency of interaction with the plurality of objects.
 9. The processof customizing an interface of an electronic device according to claim 8wherein the frequency of interaction with the plurality of objectscomprises determining a frequency of use of each object of the pluralityof objects.
 10. The process of customizing an interface of an electronicdevice according to claim 8 wherein the modifying comprises modifying abackground screen color of the object based on the determining thefrequency of the interaction with each of the plurality of objectsdisplayed on the touch screen such that the background screen color ofthe plurality of objects has a greater contrast for the plurality ofobjects having a higher frequency of interaction with respect to acontrast for the plurality of objects having a lower frequency ofinteraction.
 11. The process according to claim 8 wherein the modifyingthe manner in which the plurality of objects are displayed furthercomprises modifying a background color of one of the multiple screensbased on the frequency of interaction with the plurality of objects tobe different from a background color of another one of the multiplescreens.
 12. The process according to claim 8 wherein the modifyingcomprises modifying a position of the object from one of the multiplescreens to another one of the multiple screens based on the determiningthe frequency of the interaction with each of the plurality of objectsdisplayed on the touch screen.
 13. An electronic device having acustomizable interface comprising: means for generating an interface ona display device and for further generating on the interface a pluralityobjects; means for sensing a user input on a touch screen associatedwith the display device with respect to the plurality of objects; meansfor measuring a surface size of the user input with the touch screen;means for storing instructions to operate the electronic device in amemory; means for determining a frequency of an interaction with each ofthe plurality objects displayed on the touch screen; means for modifyinga manner in which the plurality objects are displayed on the displaydevice based on a determination of the frequency of interaction with theplurality of objects and the surface size, wherein the means formodifying modifies a size of the object, wherein the plurality ofobjects are associated with applications executed at least in part by aprocessor; wherein the display device is further configured to displaymultiple screens, with only one screen visible at a given time, thedisplay further configured to display a portion of the plurality ofobjects on each of the multiple screens; wherein the means for modifyingthe manner in which the plurality of objects are displayed furthercomprises modifying a position of the object on one of the multiplescreens based on the frequency of interaction with the plurality ofobjects based on the determining the frequency of the interaction witheach of the plurality objects displayed on the touch screen; and whereinthe means for modifying comprises maintaining a manner in which theplurality objects are displayed on the display device based on adetermination of the frequency of interaction with the plurality ofobjects has not changed with respect to a previous determination of thefrequency of interaction with the plurality of objects.
 14. Theelectronic device according to claim 13 wherein the frequency ofinteraction with the plurality of objects determined by the means fordetermining comprises a frequency of use of each object of the pluralityof objects.
 15. The electronic device according to claim 13 wherein themeans for modifying further modifies a background screen color of theobject based on the determining the frequency of the interaction witheach of the plurality objects displayed on the touch screen such thatthe background screen color of the plurality of objects has a greatercontrast for the plurality of objects having a higher frequency ofinteraction with respect to a contrast for the plurality of objectshaving a lower frequency of interaction.
 16. The electronic deviceaccording to claim 13 wherein the means for modifying the manner inwhich the plurality of objects are displayed further comprises modifyinga background color of one of the multiple screens based on the frequencyof interaction with the plurality of objects to be different from abackground color of another one of the multiple screens.
 17. Theelectronic device according to claim 13 wherein the means for modifyingfurther modifies a position of the object from one of the multiplescreens to another one of the multiple screens based on the determiningthe frequency of the interaction with each of the plurality objectsdisplayed on the touch screen.